Interspecific Differences in Weed Susceptibility to Steam Injury

León, Ramón G.; Ferreira, Dylan T.

doi:10.1614/wt-07-150.1

Cited by 11 publications

(8 citation statements)

References 18 publications

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“…However, most of the younger weeds also regrew within a few weeks. These results support other recent findings suggesting that steam has differential effects on various weed species, with succulent weeds and grasses being poorly controlled compared with some other broadleaved weed species (Leon and Ferreira, 2008;Shrestha et al, 2012).…”

Section: Resultssupporting

confidence: 91%

Efficacy and Cost of Cultivators, Steam, or an Organic Herbicide for Weed Control in Organic Vineyards in the San Joaquin Valley of California

Shrestha

Kurtural

Fidelibus

et al. 2013

hortte

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Weed management is an important problem faced by organic grape (Vitis vinifera) growers as there are few effective and economic options available. However, new organically acceptable weed control products have become available in recent years. Several studies were conducted to compare the efficacy of two mechanical weed control methods (French plow and Bezzerides tree and vine cultivator) with steam, and an organic herbicide (d-limonene) in organic raisin and wine grape vineyards. The experiments were designed as split plots with the aforementioned treatments as main plots with additional weed control treatments (handhoeing and no handhoeing in the raisin grape vineyards; hoeing, no hoeing, steam, and d-limonene in the wine grape vineyard) one month after the main plot treatment as subplots. The plow provided the greatest level of weed control among the treatments followed by the cultivator. The time required to hoe mechanically cultivated plots was also generally lower than the other treatments. Steam and herbicide only suppressed weeds for 2–3 weeks, and the time needed to hoe plots in these treatments was generally similar to the untreated control at all sampling dates. The mechanical treatments also were two to four times more cost-effective than steam or herbicide. Therefore, mechanical treatments were the most effective and economical weed control methods, though none of the treatments affected vine growth, midday stem water potential, petiole nitrate concentration at bloom, grape yield, or quality.

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Section: Resultssupporting

confidence: 91%

Efficacy and Cost of Cultivators, Steam, or an Organic Herbicide for Weed Control in Organic Vineyards in the San Joaquin Valley of California

Shrestha

Kurtural

Fidelibus

et al. 2013

hortte

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“…Ascard (1995) classified P. annua as very tolerant of flame weeding, because of its protected shoot meristems situated very near to the soil surface. Species with a prostrate growth habit, with protected meristems and narrow, thick leaves, such as S. procumbens , showed a greater tolerance to thermal treatments in studies by Ascard (1995) and Leon and Ferreira (2008). These traits reduce lethal heat transfer to the meristems and penetration into plant tissues.…”

Section: Discussionmentioning

confidence: 99%

“…For example, several plant morphological characteristics, including the presence of protective layers of hair and wax, lignification, condition of water status and leaf morphology (e.g. shape, width, thickness), have been reported as affecting tolerance to thermal weed control (Ascard, 1995; Hansson & Ascard, 2002; Leon & Ferreira, 2008). Control measures can result in the selection, leading to the predominance of tolerant species, particularly when using a single weed control method (Rask & Kristoffersen, 2007).…”

Section: Introductionmentioning

confidence: 99%

Weed flora in paved areas in relation to environment, pavement characteristics and weed control

et al. 2011

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By 2015, all herbicide use on public pavements in Flanders (northern region of Belgium) will be phased out. Currently, little is known about weed flora in these pavements or their interactions with different weed control methods. The objectives of this study were to explore the species composition of pavements in relation to various abiotic factors and applied weed control methods. A vegetation survey was conducted on 163 public pavements constructed with small paving elements across Flanders. Botanical composition was determined, and a score for street scene perception was calculated. For each pavement, a set of environmental conditions and technical characteristics was determined, and data on the applied weed control methods were collected. Apart from Musci (mosses), the most important plant species were Poa annua, Sagina procumbens, Conyza canadensis, Taraxacum officinale and Plantago major. Weed species composition and street scene perception were affected by intensity of use, joint width and light intensity. Weed prevention measures may be built into the construction of pavements by manipulating light, joints and use in their design. Repeated use of a single weed control method caused shifts in weed flora. This suggests that more optimal weed control on pavements is likely to be achieved by alternating weed control methods

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“…Thermal tools have been used for weed control. These tools include flaming (Ascard 1994), infrared (Ascard 1998) and ultraviolet-B radiation (Furness and Upadhyaya 2002), hot water (Hansson and Ascard 2002), microwave (Sartorato et al 2006), and steam (Kolberg and Wiles 2002;Leon and Ferreira 2008). The general principle behind these thermal weed control methods is to cause plant death by raising temperatures high enough to disintegrate the plants' cellular membranes (Sirvydas et al 2006).…”

mentioning

confidence: 99%

“…Some authors have reported that, to cause irreversible damage to cell membranes and thus plant cell death, the temperature should be at least 58 C (Daniell et al 1969;Vincent et al 2001). The plant damage, however, can depend on species (Leon and Ferreira 2008), plant size and density (Ascard 1994;Kolberg and Wiles 2002;Leon and Ferreira 2008), or plant morphological characteristics (Ascard 1995;Hansson and Ascard 2002;Leon and Ferreira 2008). Steam has been suggested to be more effective in killing plants than flame because 1 kg of wet water vapor releases 2,250 kJ of thermal energy, which is 3.7 to 11 times more than that released by 1 kg of propane used in flaming (Kerpauskas et al 2006).…”

mentioning

confidence: 99%

Evaluation of Thermal Implements and Organic Herbicides for Weed Control in a Nonbearing Almond (Prunus dulcis) Orchard

2012

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Sustainable weed management strategies are needed for organic orchard systems. A study was conducted in an almond orchard in Fresno, CA from 2009 to 2011. Treatment comparisons included steam, flame, and broad applications of either lemongrass oil or D-limonene. An untreated control was also included. The experimental design was a randomized complete block with four replications. Weekly evaluations on percent weed control were taken and weed biomass was sampled 4 to 8 wk after treatment (WAT). Weed control and biomass differed between seasons but, in general, steam and flame provided as much as 95% control 1 WAT. However, the effects lasted only 3 to 4 wk as new weeds emerged or the treated weeds overcame the suppressive effects of the thermal treatments. Weed biomass was 95% lower in the steam- and flame-treated plots compared with the untreated plots in summer. Both steam and flame were more effective on certain erect-growing broad-leaved weed species than on prostrate-growing weeds and grasses. Lemongrass oil provided very little weed control. However, D-limonene provided up to 95% weed control 1 WAT and in one experiment 53% control was observed up to 5 WAT. This herbicide also resulted in lower weed biomass than the untreated and the thermal-treated plots. Monthly applications of steam or flame or applications of D-limonene every 5 to 6 wk may have to be made to adequately suppress weeds in organic almond orchards. Cost estimates of propane use were $41 to 56 ha−1 and $26 ha−1 for the steam and flame treatments, respectively. The cost of D-limonene was estimated as $275 ha−1. To optimize weed control and costs, these tools may need to be used in combination rather than by themselves.

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Interspecific Differences in Weed Susceptibility to Steam Injury

Cited by 11 publications

References 18 publications

Efficacy and Cost of Cultivators, Steam, or an Organic Herbicide for Weed Control in Organic Vineyards in the San Joaquin Valley of California

Efficacy and Cost of Cultivators, Steam, or an Organic Herbicide for Weed Control in Organic Vineyards in the San Joaquin Valley of California

Weed flora in paved areas in relation to environment, pavement characteristics and weed control

Evaluation of Thermal Implements and Organic Herbicides for Weed Control in a Nonbearing Almond (Prunus dulcis) Orchard

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